Dispensing container for wet sheets

ABSTRACT

A dispensing container for wet sheets includes a container body having an opening through which wet tissue sheets are pulled out and a lid adapted to seal and unseal the opening. The lid is formed with an annular ridge. The ridge is put in pressure contact with a corner edge of an elastically deformable packing provided on a top surface of the container body to seal the opening.

TECHNICAL FIELD

The present invention relates generally to a dispensing container for containing and dispensing wet sheets.

BACKGROUND ART

Conventionally, a wet sheet container 10 is known which comprises a container body A containing therein a stack of wet sheets 30 cylindrically rolled up and a cap C including a lid B attached thereto so as to be repetitively openable and closable, as shown in a FIG. 11( a) of the accompanying drawings (e.g., from PTL 1).

As shown in FIG. 11( b), with such container A, when it is desired to use wet sheets, the lid B is opened and, distal ends of the individual wet sheets 30 is pinched with a user's fingers and the wet sheets 30 are successively pulled out one by one through an opening D of the cap C. However, in order to prevent the wet sheets 30 from drying, the opening D must be dimensioned as small as possible to improve the seal performance essential for the container body A. As a disadvantageous consequence, it becomes difficult to pull out the wet sheets 30 through the opening D dimensioned small in this manner.

Particularly in the case of the wet sheets 30 impregnated with high volatile alcohol or the like for the purpose of disinfection, alcohol or the like rapidly evaporates even if the opening D is dimensioned small. To solve this problem, it is required to store the wet sheets in a perfectly sealed environment.

To overcome this problem, a wet sheet pack 20 characterized in that a laminate film having a high permeation resistance is used to make the individual pack of wet sheets as illustrated by FIG. 12( a) of the accompanying drawings has been proposed (e.g., disclosed in PTL 2).

In the case of the known wet sheet pack 20, when it is desired to use wet sheets 30, a film sheet 23 sealing an opening 21 is peeled off from the pack, the wet sheets 30 is pulled out and then the opening 21 is sealed again with the film sheet 23 so that the remaining wet sheets 30 may be perfectly sealed to protect them against drying.

However, this wet sheet pack 20 of prior art is based on a relatively simple construction in which the film sheet 21 is temporarily bonded to the pack 20 by the intermediary of a adhesive layer 22 formed around the opening 21 and repetitive operations of unsealing and sealing several times may reduce adhesive force of the adhesive layer 22. Consequently, the film sheet 23 to seal the opening 21 may be unintentionally peeled off from the pack 20 and the desired seal performance essential for the film sheet 23 may be unacceptably deteriorated.

To overcome such drawback, the wet sheet pack 20 provided with a cap C so as to seal the opening 21 as illustrated by FIG. 13( a) of the accompanying drawing has been proposed (e.g., disclosed in PTL 3).

However, the cap C covers merely a part of the pack 20 inclusive of the opening as will be apparent from FIG. 13( b) and there is an anxiety that a clearance may be left between the pack 20 including the laminate film and the cap C made of thermoplastic resin. In addition, even after the lid B has been closed, there is a possibility that a clearance may be often left between the lid B and the cap C and alcohol or the other may evaporate trough the clearance.

CITATION LIST Patent Literature

-   PTL 1: Japanese Patent Application Laid-Open Publication No.     2007-217054 -   PTL 2: Japanese Patent Publication No. 3372692 -   PTL 3: Japanese Patent Publication No. 3706141

SUMMARY OF INVENTION Technical Problem

The present invention relates to a dispensing container for a stack of wet sheets.

One object of the present invention is to provide the container improved to have a sufficiently high seal performance essential to prevent the wet sheets impregnated with high volatile liquid such as alcohol from drying and thereby to store the wet sheets in useful condition over a long period.

Another object of the present is to provide the container improved to facilitate not only the individual wet sheets to be pulled out but also to facilitate the empty pack to be exchanged with a fresh pack so that the usability as well as the eco-friendliness may be improved.

A further object of the present invention is to provide such container formed with a hook for storage so that not only the usability but also the display effect may be improved.

Solution to Problem

According to the invention, there is provided a dispensing container for containing and dispensing of wet sheets, comprising the following features:

a container body and movable lid being rigid, the container body having one of a first opposed surface and a second opposed surface and said lid having the other of said first opposed surface and said second opposed surface, wherein the first opposed surface is one of mutually opposed surfaces of the container body and the lid when the lid is closed and the second opposed surface is the other of the opposed surfaces; the container body is formed from plural walls and has an opening defined on the first opposed surface which is one of the walls, for pulling out the wet sheets through the opening; the lid is adapted to seal and unseal the opening and includes a proximal end portion hinged to the container body and a distal end portion; and engaging means are provided on the container body and the lid for disengageably engaging the lid to the container body.

The container further comprises: an annular groove formed in a zone encircling the opening on the first opposed surface; an annular packing being elastically deformable and fixedly inserted in the groove and including a distal end surface having a corner edge; and an annular first ridge integrally formed on the second opposed surface and including a distal end to deform the corner edge of the distal end surface of the packing by pressure contact against the corner edge when said lid is closed, to tightly seal the opening.

Advantageous Effects of Invention

According to the invention, even if the packing is formed of material having a relative high elastic rebound to provide a reliable sealing for the opening, the corner edge of the distal end surface of the packing, which is a part of the packing, is readily deformable by pressure contact of the first ridge against the corner edge of the distal end surface of the packing to seal the opening. Consequently, the invention ensures that the seal performance essential for the container body and thereby the wet sheets are reliably protected against drying for a long period.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 shows a dispensing container for wet sheets according to the present invention (a) as the container has been unsealed and (b) as the container is kept in the sealed state.

FIG. 2 shows a wet sheet pack (a) in a perspective view as partially broken away and (b) in a sectional view taken in a transverse direction.

FIG. 3 shows a partially exploded perspective vies of the container.

FIG. 4 shows the wet sheet pack according to the present invention as partially broken away (in upper page space) and a part defined by broken line in an enlarged scale (in lower page space).

FIGS. 5( a) and 5(b) show sectional views each of a part of the container according to the present invention.

FIGS. 6( a) and 6(b) show sectional views of a part of the container according to the present invention.

FIG. 7 shows the container according to the present invention (a) with a bottom kept in sealed state and (b) with the bottom unsealed.

FIG. 8 shows the container (a) with a hook received in a depression and (b) with the hook raised from the depression.

FIGS. 9( a) and 9(b) show to one example for display the container according to the present invention.

FIG. 10 shows the container (a) as viewed obliquely from above and (b) obliquely viewed from below.

FIG. 11 shows a dispensing container of prior art.

FIG. 12 shows a dispensing container of prior art.

FIG. 13 shows a dispensing container of prior art.

DESCRIPTION OF EMBODIMENTS

At the outset, the summary of embodiments of the invention will be described as follows:

a dispensing container for containing and dispensing of wet sheets, comprising: a container body and a movable lid being rigid, the container body has one of a first opposed surface and a second opposed surface, said lid has the other of said first opposed surface and said second opposed surface, wherein the first opposed surface is one of mutually opposed surfaces of the container body and the lid, and second opposed surface is the other of said first opposed surface and said second opposed surface when the lid is closed and the second opposed surface is the other of the opposed surfaces; the container body is formed from plural walls and has an opening defined on the first opposed surface which is one of the walls, for pulling out the wet sheets through the opening; the lid is adapted to seal and unseal the opening and includes a proximal end portion hinged to the container body and a distal end portion; and engaging means are provided on the container body and the lid for disengageably engaging the lid to the container body.

The container further comprises: an annular groove formed in a zone encircling the opening on the first opposed surface; an annular packing being elastically deformable and fixedly inserted in the groove and including a distal end surface having a corner edge; and an annular first ridge integrally formed on the second opposed surface and including a distal end to deform said corner edge of the packing by pressure contact against the corner edge when the lid is closed, to tightly the said opening.

The invention may include the following embodiments:

The groove is defined by an annular second ridge and an annular third ridge spaced apart form the second ridge in a radius direction of the ridges and integrally formed on the first opposed surface, wherein the second and third ridges include distal ends, and the distal ends define therebetween a guide space which is a part of the groove.

The distal end surface of the packing is located in a lower level than tips of the distal ends of the second and third ridges as viewed in high directions thereof.

A gap is defined between a first side as one of opposed sides of the packing and a second side as one of opposed sides of the second and third ridges, wherein the gap is adjacent to the corner edge of the distal end surface of the packing.

At least one of the opposed surfaces of the distal ends of the second and third ridges is oblique so that the guide space is tapered from the distal ends of the second and third ridges toward the distal end surface of the packing.

The packing is substantially rectangular as viewed in a cross-section, wherein the corner edge of the distal end surface of the packing is one of corner edges defining both side edges of the distal end surface of the packing.

The container comprises an annular fourth ridge integrally formed on the second opposed surface with being spaced apart from the first ridge in the radius direction, the fourth ridge contacts with one of the second and third ridges when the lid is closed, to airtightly seal the opening.

The first ridge, at least one of the second and third ridges, and the fourth ridge are tapered from respective proximal ends toward the respective distal ends.

The container includes a bottom adapted to be openable and closable with respect to the container body.

The container body is provided with a hook used to suspend the container body and said hook is collapsible into the container body.

Embodiments of the invention may be further described as follows:

As shown by FIGS. 1( a) and (b), one example of a dispensing container 10 for wet sheets comprises a container body 1 and a movable lid 2. The container body 1 includes plural walls and contains therein a wet sheet pack 20. The lid 2 includes a proximal end portion 2 a and a distal end portion 2 b and serves to seal an opening 3 formed in a central zone of a top wall, which is one of the plural walls, of the container body 1 through which individual wet sheets 30 are pulled out. The proximal end portion 2 a of the lid 2 is hinged to the container body 1 by means of a hinge 4.

The lid 2 is integrally formed on its inner surface (opposed surface to the container body when the lid is closed) with an annular ridge 7 a and an annular ridge 7 b spaced apart from the ridge 7 a in a radius direction of them. The container body 1 is provided on a zone encircling the opening 3 on the top surface (surface opposed to the lid when the lid is closed) of the container body 1 with an annular packing 6 which is elastically deformable. The packing 6 includes a distal end surface 6 a (FIG. 4) which comes in contact with the distal end of the ridge 7 a when the lid 2 is closed and thereby the opening 3 is tightly sealed.

With such an arrangement, even the wet sheets impregnated with high volatile antiseptic solution such as alcohol can be reliably prevented from drying for a long period.

Details of the container 10 according to the invention will be more fully understood from the description given hereunder.

First of all, a wet sheet pack 20 to be stored in the container 10 according to the invention will be described. As will be apparent from FIGS. 2( a) and 2 (b), the wet sheet pack 20 comprises a laminate film used as a wrapping member and a stack of wet sheets 30 each being folded back on itself and interleaved by the immediately following wet sheet 30.

A top surface of the pack 20 is formed with a substantially circular opening 21 through which the uppermost wet sheet 30 is pinched and pulled out and, upon pulling out the uppermost wet sheet, a distal end of the immediately following wet sheet 30 is put out from the aforesaid opening 3 so that the wet sheets 30 can be successively pulled out from the pack 20 and therefore from the container body 1.

More specifically, the individual wet sheets 30 are impregnated with high volatile liquid such as alcohol and must be stored in the condition wetted with such high volatile liquid. To meet this requirement, an initially unsealed sheet 23 is bonded to the top surface of the pack 20 by means of an adhesive region 22 formed around the opening 21 and thereby the wet sheet pack 20 is sealed.

When it is desired to use the wet sheets 30, the initially unsealed sheet 23 is removed from the pack 20 and the wet pack 20 is put into the container 10 as will be described later in more details. In this way, even after the initially unsealed sheet 23 has been removed and the pack 20 has been unsealed, the wet sheets 30 can be properly stored and used without the anxiety that the wet sheets might dry.

Now details of the container according to the invention serving to store the above-mentioned wet sheet pack 20 will be described.

The container 10 serving to store the pack 20 comprises, as shown in FIGS. 3 and 4, the movable lid 2 and the container body 1 serving to store the pack 20 wherein the bottom 5 of the container body 1 is openable and closable around the hinge 40 b.

The bottom 5 of the container body 1 is provided with a movable leaf 15 connected with one side edge of the bottom 5 by means of the hinge 40 a and this movable leaf 15 is formed on a distal end thereof with a latch 13 adapted to be engaged with a latch receiving groove 14 formed on the container body 1 so that the bottom 5 can be locked with the container body 1.

The lid 2 includes a proximal end portion 2 a and a distal end portion 2 b. The proximal end portion 2 a is hinged to the container body 1 b by means of hinge 4. The distal end portion 2 b is formed with a latch 11 adapted to be engaged with a latch receiving groove 12 formed on the container body 1 so that the lid 2 can be locked with the container body 1.

More specifically, the container body 1 is formed around the opening 3 with annular ridges 8 a, 8 b so that the annular packing 6 may be inserted into an annular groove 8 defined between the ridge 8 a and the ridge 8 b (as indicated by dotted line). The ridges 8 a, 8 b are integrally formed on the top wall of one of plural walls defining the container body 1 so as to encircle the opening 3 with being spaced apart in a radius direction of them.

The lid 2 is formed with annular ridges 7 a, 7 b with being spaced apart in a radius direction of them so that the ridge 7 a may come in contact with a corner edge 6 b of a distal end surface 6 a of the packing 6 and thereby the opening 3 of the container body 1 may be tightly sealed when the lid 2 is closed. The ridges 7 a, 7 b are tapered from their proximal ends toward their distal ends, as will be described later in more details.

The ridge 7 a of the lid 2 comes in contact with a corner edge 6 b of the distal end surface 6 a of the packing 6 fixedly inserted into the groove 8 defined between the ridges 8 a, 8 b of the container body 1 and thereupon the corner edge 6 b of the distal end surface 6 a of the packing 6 is deformed so as to come in close contact with the ridge 7 a. More specifically, a small gap 9 is left between the packing 6 and the ridge 8 b which allows the corner edge 6 b of the packing 6 to be deformed outward.

Specifically, the ridge 7 a of the lid 2 comes in contact with the corner edge 6 b of the distal end surface 6 a, which corner edge is one of plural edges, of the packing 6 on the container body 1 so as to deform the corner edge 6 b of the packing 6 and thereby to make the contact between the ridge 7 a and the packing 6 more tight. In this way, it is assured to seal the opening 3 of the container body 1. From this viewpoint, the small gap 9 is preferably left between the packing 6 and the ridge 8 b of the container body 1.

The ridges 8 a, 8 b have respective distal ends which define therebetween a guide space 8 c. The guide space 8 c is tapered from proximal ends of the ridges 8 a,8 b toward the distal end surface 6 a of the packing 6 by at least parts of mutually opposed sides of the ridges 8 a, 8 b being made oblique or small. The distal end surface 6 a of the packing 6 is located in a lower level than tips of the distal ends of the ridges 8 a, 8 b. The ridge 8 b also is tapered from a proximal end thereof toward a distal end so that the ridge 7 b of the lid 2 comes in contact with the ridge 8 b of the lid 2 when the lid 2 is closed.

The ridge 7 a of the lid 2 comes in local contact with the packing 6 in the manner as has been described above (as indicated by small circles) and thereby it is assured that the corner edge 6 b of the packing 6 comes in close contact with the ridge 7 a. In this way, it is possible to achieve a high sealing effect for the container body. A relatively simple construction using the packing 6 having a rectangular cross-section makes it possible to manufacture the container 10 adapted to be tightly sealed at a low cost

Referring now to FIG. 5( a), the ridges 7 a, 7 b of the lid 2 come in contact with the ridge 8 b of the container body 1 so as to nip the latter therebetween when the lid 2 is closed. Consequentially, the desired high sealing effect for the container body is achieved by two contact points of these ridges.

In addition to these two contacting points between the ridges 7 a, 7 b of the lid 2 and the ridge 8 b of the container body 1, there is provided a contacting point between the ridge 7 a, 7 b and the packing 6. These three contact points (indicated by small circles in FIG. 5( a)) assure that the container body 1 can be tightly sealed. In this way, the wet sheets 30 can be stored for a long period without the anxiety that the wet sheets might dry even when the wet sheets are impregnated with high volatile alcohol.

The positional relationship between the ridges 7 a, 7 b, 8 a, 8 b formed on the lid 2 and the container body 1 and the packing 6 is not specified so far as the ridges formed on the container body 1 and the lid 2 come in contact with the corner edge 6 b of the distal end surface 6 a of the packing 6 so as to deform the packing 6 toward the gap 9 and thereby to assure the desired tight contact between the ridges 7 a, 8 a and the packing 6.

It is possible, for example, to seal the container body 1 tightly at a total of three contact points, i.e., at two contact points between the ridge 7 a of the lid 2 on one hand and the ridge 8 a and the container main body on the other hand, and one contact point between the annular ridge 7 b of the lid 2 and the ridge 8 b of the container body, as shown by FIG. 5( b).

It is also possible to provide for the packing 6 on the lid 2 so that the ridge 8 a of the container body 1 comes in contact with the corner edge 6 b of the packing 6 and the ridge 7 b both formed on the lid as shown by FIG. 6( a) and thereby the container body can be tightly sealed.

As still another alternative arrangement, it is possible to seal the container body 1 further tightly at a total of three contact points (as indicated by small circles in FIG. 6( a)), i.e., at one contact point between the ridge 8 b of the container body on one hand and the corner edge of the packing 6 on the lid 2 on the other hand and at two contact points between the ridges 8 a, 8 b of the container body on one hand and both sides of the ridge 7 a of the lid 2, as shown by FIG. 6( b).

In the manner as has been described above, the container 10 according to the invention is constructed so that the ridge 7 a, 7 b formed on the lid 2, the packing 6 and the ridges 8 a, 8 b formed on the container body 1 come in contact with one another to seal the opening 3 and thereby the opening 3 of the container body 1 is sealed. The ridge 7 a, 8 a come in contact with the corner edge 6 b of the packing 6 to deform the packing 6 so that the sealing effect for the container body 1 can be improved and the wet sheets 30 can be prevent from drying for a long period.

The container 10 can be constructed not only to improve the sealing effect for the container body as has been described above but also to improve a displaying effect.

Referring to FIG. 7 showing an alternative construction of the container 10, the bottom 5 of the container body 1 is openable and closable around the hinge 40 b and the latch 13 of the movable leaf 15 formed along the side edge of the bottom 5 by the intermediary of the hinge 40 a is locked with the latch receiving groove 14 formed on the container body 1. When it is desired to exchange the empty pack with a fresh pack, the movable leaf 15 may be collapsed toward the front side to unlock the bottom 5 from the container main body 1 as illustrated by FIG. 7( a) and then the container body 1 may be swung upward as illustrated by FIG. 7( b). In this way, the empty pack 20 can be easily exchanged with a fresh pack 20. Such unique construction makes it possible to provide the container 10 improved in the aspect of its usability as well as in the aspect of its environmental friendliness.

Referring to FIG. 8, the container body 1 may be formed with a hook 16 used to suspend said container body 1 by the intermediary of the hinge 40 c so that the hook 16 can be received in a correspondingly shaped depression in the container main body 1.

When the hook 16 is collapsed into the depression 18 formed on the bottom 5 of the container body 1, the inner side of the hook 16 at its distal end is locked by a latch 17 formed in the depression, as shown by FIG. 8( a).

When it is desired to use the hook 16 for suspension of the container body 1, the distal end of the hook 16 may be pinched by the user's fingers and pulled out to unlock the hook 16 from the latch 17 so that the hook may be turned up around the hinge 4 and extend outward as will be seen in FIG. 8( b).

After the hook 16 has been turned up from the depression of the container 10, a hanger member 19 such as an S-shaped hook or a hanging bar may be engaged with or inserted through the hook 16 as illustrated by FIG. 9( a) or FIG. 9( b), respectively, for the purpose of personal use or commercial display. In this way, the hook 16 collapsible into the container 10 makes it possible to provide the container improved in the usability as well as in the display effect.

As aforementioned, the present invention provides the container 10 having sufficiently high seal performance essential to protect the wet sheets 30 contained therein from drying for a long period even if the wet sheets 30 are impregnated with highly volatile alcohol or the like. The present invention further provides the container 10 improved in its usability as well as in its environmental friendliness because this container 10 facilitates the individual wet sheets to be pulled out from the container 10 and the empty pack 20 to be exchanged with a fresh pack 20. In addition, the present invention provides the container 10 improved in its usability as well as in its display effect by forming the container 10 with the hook 16 which is collapsible into the container 10.

While, in general, both the container body 1 and the lid 2 cooperating together to form the container 10 which has been described hereinabove may be obtained by injection molding of thermoplastic resin, thermally resistant PP, PS, PC, PET and the like may be preferably used as the thermoplastic resin to be injection-molded.

The container 10 is preferably formed with strength enhancing ribs 40 on both the container body 1 and the lid 2 in order to enhance the strength of the container 10. In this case, the container body 1 may be formed on the top wall and side walls, as seen in FIG. 10( a), or on the bottom 5 as seen in FIG. 10( b), with convex reinforcing ribs 40 extending in a longitudinal direction. The presence of these reinforcing ribs 40 protects the container 10 from being undesirably deformed and enhances strength of both the container body 1 and the bottom 5 so that the container 10 is protected from being deformed due to repetitive operations of opening and closing the lid 2 and the bottom 5. In this way, the presence of these reinforcing ribs 40 makes it possible to use the storage container 10 without any problem for a long period. The strength of the container 10 enhanced in this manner makes it possible, in turn, to keep the container body 1 tightly in contact with the bottom 5 and thereby to achieve further higher seal performance essential for the container 10.

While water-soluble material has been commonly used as material for the wet sheets 30, it is also possible to use the other types of material, fibrous material such as a non-woven fabric, paper or gauze, or sheet-like foam or paper-based soft material. The wet sheets 30 may be impregnated with disinfection solution, antiseptic solution or rinse solution each containing alcohol, or cosmetics such as face lotion or emulsion.

Material for the wet sheet pack 20 includes, in the order from the outer side, oriented polyester (PET)/non-oriented polypropylene (CPP), polyvinylidene chloride (PVDC)-coated PET/CPP, PET/polyethylene (PE)/CPP, oriented polypropylene (OPP)/CPP, PVDC-coated OPP/CPP, inorganic material (e.g., silicon oxide (SiOx)-deposited OPP/CPP and oriented nylon (ON)/CPP. Vapor deposition of aluminum foil may be used to enhance barrier performance.

As the packing 6, the conventional rubber packing may be used and material for such rubber packing includes nitrile rubber (NBR), fluorine-containing rubber (FKM), ethylene-propylene rubber (EPDM), acrylic rubber (ACM), hydrogenated nitrile rubber (HNBR), polyurethane rubber, styrene-butadiene rubber, chloroprene rubber and butyl rubber.

Among them, the ethylene-propylene rubber (EPDM) which is terpolymer consisting of ethylene, propylene and diene monomer used for cross-linking and classified as olefinic rubber may be preferably used as material for the packing 6 in consideration of its high resistance property to adverse affection of highly volatile alcohol or the like such as swelling, its anti-allergy value higher than that of natural rubber and its high resistance property to adverse affection of solar light such as crack generation. In other words, said ethylene-propylene rubber can be effectively and stably used for a long period.

The material for the packing is not limited to the rubber packing but resin packing also may be used. For example, ethylene tetrafluoride resin or polyamide resin may be used. In contrast with this, silicone rubber (VMQ) is alcohol-pervious and therefore not preferable as material for said annular synthetic resin packing 6 when the wet sheets are impregnated with volatile alcohol or the like.

It is desired for the packing 6 to have a suitable vale of hardness to be appropriately deformed when the ridges come in contact with the packing 6. More specifically, the packing 6 has rubber hardness (the rubber hardness based on JIS K 6253 Durometer Type A, i.e., “hardness measured by Type A Durometer Hardness Test”). Suitable A-value is in a range of A20 to 40, preferably in a range of A23 to 30 and more preferably A25. 

1. A dispensing container for containing and pullout dispensing of wet sheets, comprising: a container body and movable lid being rigid, said container body having one of a first opposed surfaces and a second opposed surface, and said lid having the other of said first opposed surface and said second surface, wherein said first opposed surface is one of mutually opposed surfaces of said container body and said lid when said lid is closed and said second opposed surface is the other of said opposed surfaces; said container body being formed from plural walls and having an opening defined on said first opposed surface which is one of said walls, for pulling out said wet sheets through said opening; said lid being adapted to seal and unseal said opening and including a proximal end portion hinged to said container body and a distal end portion; engaging means provided on said container body and said lid for disengageably engaging said lid to said container body; wherein an annular groove is formed in a zone encircling said opening on said first opposed surface; an annular packing is elastically deformable and fixedly inserted in said groove and includes a distal end surface having a corner edge; and an annular first ridge is integrally formed on said second opposed surface and includes a distal end to deform said corner edge of said packing by pressure contact against said corner edge when said lid is closed, to tightly seal said opening.
 2. The dispensing container defined by claim 1, wherein said groove is defined by an annular second ridge and an annular third ridge spaced apart form said second ridge in a radius direction of said ridges and integrally formed on said first opposed surface, wherein said second and third ridges include distal ends, and said distal ends define therebetween a guide space which is a part of said groove.
 3. The dispensing container defined by claim 1, wherein said distal end surface of said packing is located in a lower level than tips of said distal ends of said second and third ridges as viewed in high directions thereof.
 4. The dispensing container defined by claim 1, wherein a gap is defined between a first side as one of mutually opposed sides of said packing and a second side as one of mutually opposed sides of said second and third ridges, wherein said gap is adjacent to said corner edge of said distal end surface of said packing.
 5. The dispensing container defined by claim 1, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 6. The dispensing container defined by claim 1, wherein said packing is substantially rectangular as viewed in a cross-section, wherein said corner edge of said distal end surface of said packing is one of corner edges defining both side edges of said distal end surface of said packing.
 7. The dispensing container defined by claim 1, further comprising an annular fourth ridge integrally formed on said second opposed surface with being spaced apart from said first ridge in said radius direction, said fourth ridge contacts with one of said second and third ridges when said lid is closed, to airtightly seal said opening
 8. The dispensing container defined by claim 1, wherein said first ridge, at least one of said second and third ridges, and said fourth ridge are tapered from respective proximal ends toward respective said distal ends.
 9. The dispensing container defined by claim 1, wherein said container includes a bottom adapted to be openable and closable with respect to said container body.
 10. The dispensing container defined by claim 1, wherein said container is provided with a hook used to suspend said container body and said hook is collapsible into said container body.
 11. The dispensing container defined by claim 2, wherein said distal end surface of said packing is located in a lower level than tips of said distal ends of said second and third ridges as viewed in high directions thereof.
 12. The dispensing container defined by claim 2, wherein a gap is defined between a first side as one of mutually opposed sides of said packing and a second side as one of mutually opposed sides of said second and third ridges, wherein said gap is adjacent to said corner edge of said distal end surface of said packing.
 13. The dispensing container defined by claim 3, wherein a gap is defined between a first side as one of mutually opposed sides of said packing and a second side as one of mutually opposed sides of said second and third ridges, wherein said gap is adjacent to said corner edge of said distal end surface of said packing.
 14. The dispensing container defined by claim 11, wherein a gap is defined between a first side as one of mutually opposed sides of said packing and a second side as one of mutually opposed sides of said second and third ridges, wherein said gap is adjacent to said corner edge of said distal end surface of said packing.
 15. The dispensing container defined by claim 2, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 16. The dispensing container defined by claim 3, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 17. The dispensing container defined by claim 4, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 18. The dispensing container defined by claim 11, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 19. The dispensing container defined by claim 13, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing.
 20. The dispensing container defined by claim 14, wherein at least one of said mutually opposed surfaces of said distal ends of said second and third ridges is oblique so that said guide space is tapered from said distal ends of said second and third ridges toward said distal end surface of said packing. 